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The Iris genus is known for its large blooms and significant conservation value, as well as its horticultural appeal. There are over 300 species of irises, which are widely distributed across the northern temperate zone. Iris palaestina (Baker) Barbey, commonly known as the Lebanese iris, is an endemic species of the Middle East with limited prior phytochemical research. This study was conducted to examine the metabolomic complexity and chemical profile of the flower extract of I. palaestina using advanced analytical tools. Molecular networking was employed to investigate its chemotaxonomy and phytochemical composition. In silico annotation tools—network annotation propagation (NAP), DEREPLICATOR, and MS2LDA—were applied to identify chemical classes and substructures within the extract. The flower extract of I. palaestina was found to contain diverse metabolite classes, including flavonoids, terpenoids, and lipids, with a total of 15 compounds annotated. Subsequent chromatographic separation yielded four major compounds, identified as the isoflavonoid irigenin, the flavonoid embinin, the xanthone mangiferin, and the lipid N-lauryldiethanolamine. Among these, irigenin and mangiferin exhibited significant α-glucosidase inhibitory activity, with IC₅₀ values of 32.1 μM and 36.1 μM, respectively. This study provides the first comprehensive metabolomic characterization of I. palaestina, revealing it as a rich source of bioactive phytochemicals spanning multiple metabolite subclasses. These findings emphasize the possible use of I. palaestina for further pharmaceutical investigation and natural product discovery. Full article